Add to ORKGA thermodynamically-based work potential theory for modeling progressive damage and failure in fiber-reinforced laminates is presented. The current, multiple-internal state variable (ISV) formulation, referred to as enhanced Schapery theory (EST), utilizes separate ISVs for modeling the effects of damage and failure. Consistent characteristic lengths are introduced into the formulation to govern the evolution of the failure ISVs. Using the stationarity of the total work potential with respect to each ISV, a set of thermodynamically consistent evolution equations for the ISVs are derived. The theory is implemented into a commercial finite element code. The model is verified against experimental results from two laminated, T800/3900-2 panels ...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
This work evaluates the effectiveness of commonly adopted local damage evolution methods and failure...
In order to study the nonlinear behaviors and interactions among the constituents for the composite ...
A thermodynamically-based work potential theory for modeling progressive damage and failure in fiber...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/97063/1/AIAA2012-1612.pd
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83581/1/AIAA-2010-2815-444.pd
A continuum-level, dual internal state variable, thermodynamically based, work potential model, Scha...
A novel, multiscale mechanics model for predicting the evolution of damage and failure in continuous...
Progressive damage and failure analysis (PDFA) tools are needed to predict the nonlinear response of...
This paper is concerned with a progressive failure analysis methodology for fiber reinforced composi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77029/1/AIAA-2009-2545-493.pd
NASA/TM-2006-214282A continuum damage model for the prediction of damage onset and structural collap...
This paper presents the development, calibration and finite element implementation of a novel set of...
Two progressive failure methodologies currently under development by the Mechanics of Materials Bran...
The purpose of this work is to define a ply damage onset and evolution criterion, thermodynamically ...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
This work evaluates the effectiveness of commonly adopted local damage evolution methods and failure...
In order to study the nonlinear behaviors and interactions among the constituents for the composite ...
A thermodynamically-based work potential theory for modeling progressive damage and failure in fiber...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/97063/1/AIAA2012-1612.pd
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83581/1/AIAA-2010-2815-444.pd
A continuum-level, dual internal state variable, thermodynamically based, work potential model, Scha...
A novel, multiscale mechanics model for predicting the evolution of damage and failure in continuous...
Progressive damage and failure analysis (PDFA) tools are needed to predict the nonlinear response of...
This paper is concerned with a progressive failure analysis methodology for fiber reinforced composi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77029/1/AIAA-2009-2545-493.pd
NASA/TM-2006-214282A continuum damage model for the prediction of damage onset and structural collap...
This paper presents the development, calibration and finite element implementation of a novel set of...
Two progressive failure methodologies currently under development by the Mechanics of Materials Bran...
The purpose of this work is to define a ply damage onset and evolution criterion, thermodynamically ...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
This work evaluates the effectiveness of commonly adopted local damage evolution methods and failure...
In order to study the nonlinear behaviors and interactions among the constituents for the composite ...